-
The ocean conveyor belt and
the Gulf Stream.
-
Ocean currents have a direct
influence on our lives.
-
They determine our weather, our
climate, and much more.
-
The ocean currents and wind systems
-
transport heat from the equator
to the poles
-
and operate like a large engine
for the global climate.
-
In the oceans, there are numerous
currents.
-
The so-called ocean conveyor belt
is very important for our climate.
-
This term describes a combination
of currents
-
that result in four of the five global
oceans exchanging water with each other.
-
They form a worldwide circulation system.
-
The conveyor belt is also called the
thermohaline circulation,
-
with “thermo” referring to
the temperature,
-
and “haline” to the salt content
of the water.
-
Both determine the density of the water.
-
While the masses of water may be
moved in part by wind,
-
primarily the different densities
of the global oceans are
-
responsible for their movement.
-
Warm water has a lower density and rises
while cold water sinks.
-
The water’s density also increases with
a higher salt content.
-
At the equator the heat from the
sun is especially strong,
-
resulting in a lot of evaporation and
thus a rise in the water’s salt content.
-
That is where the Gulf Stream begins.
-
The Gulf Stream is very important
for the European climate.
-
Its length of 10,000 km makes it one of
the largest and fastest currents on Earth,
-
and it’s very warm.
-
At roughly 2 m/s it brings up to
100,000,000 m³ of water per second
-
towards Europe.
-
A constantly blowing wind, the
southeast trade wind,
-
drives warm surface water to
the northwest, into the
-
Gulf of Mexico, where it heats up
to 30 °C.
-
The turning of the Earth and the
west winds then direct
-
the Gulf Stream towards Europe
and split it up.
-
One part flows south, another east
to the Canary Current,
-
and a third part flows north where
it releases a lot of heat
-
into the atmosphere as the
North Atlantic Current.
-
The water becomes colder there.
-
Its salt content and density rise on
the account of evaporation
-
and it drops down between
Greenland, Norway, and Iceland.
-
There we also find the largest
waterfall on Earth.
-
The so-called Chimneys, roughly 15-km-wide
pillars with water falling up to 4,000 m.
-
17,000,000 m³ of water per second, or
roughly 15 times more water than
-
is carried by all the rivers in the world.
-
This creates a strong maelstrom, which
constantly pulls in new water
-
and is the reason that the Gulf Stream
moves towards Europe.
-
Countless species use the Gulf Stream as a
means of transport on their trips
-
from the Caribbean to northern areas.
-
But it doesn’t just bring us animals;
-
an enormous quantity of warm air also
comes with it.
-
In order to produce the same heat that it
brings to the shores of Europe,
-
we would need 1,000,000 nuclear
power plants.
-
That’s why we also call the Gulf Stream
a heat pump.
-
Without it, the temperature would
be significantly colder here,
-
at least five to ten degrees.
-
Instead of lush fields, we would have
long winters and sparse ice-covered
-
landscapes in Europe.
-
In the last few years, scientists and
pundits in the media have repeatedly
-
expressed the fear that the Gulf Stream
could come to a standstill
-
due to climate change.
-
Because if the polar caps actually melt,
the salt content in the water
-
off Greenland would fall, as would
its density.
-
The North Atlantic Current would no longer
be heavy enough,
-
and so it woundn’t sink as usual.
-
In the worst case, that would bring the
Gulf Stream, our heat pump, to a stop.
-
Some climate experts also assume that
climate change could
-
compensate for this effect.
-
We know that it can be normal for the
climate to change
-
by looking at the development of the Earth
over the last few million years.
-
There are ice ages and warm periods.
-
In the last ice age, a gigantic flood of
melting water crippled
-
the heat-bringing North Atlantic Current,
covering the northern hemisphere in ice.
-
Scientists have different views on the
impact that climate change will have
-
on the global ocean conveyor belt, but
one thing is clear:
-
when the climate changes, then the complex
system of ocean currents and winds,
-
which has remained fairly stable since the
last ice age,
-
will change in ways that we don’t
yet understand.
